Mercurial > octave
view libinterp/octave-value/ov-base.cc @ 21200:fcac5dbbf9ed
maint: Indent #ifdef blocks in libinterp.
* builtins.h, Cell.cc, __contourc__.cc, __dispatch__.cc, __dsearchn__.cc,
__ichol__.cc, __ilu__.cc, __lin_interpn__.cc, __pchip_deriv__.cc, __qp__.cc,
balance.cc, besselj.cc, betainc.cc, bitfcns.cc, bsxfun.cc,
c-file-ptr-stream.cc, c-file-ptr-stream.h, cellfun.cc, colloc.cc,
comment-list.cc, conv2.cc, daspk.cc, dasrt.cc, dassl.cc, data.cc, debug.cc,
defaults.cc, defaults.in.h, defun-dld.h, defun.cc, defun.h, det.cc, dirfns.cc,
display.cc, dlmread.cc, dot.cc, dynamic-ld.cc, eig.cc, ellipj.cc, error.cc,
errwarn.cc, event-queue.cc, fft.cc, fft2.cc, fftn.cc, file-io.cc, filter.cc,
find.cc, gammainc.cc, gcd.cc, getgrent.cc, getpwent.cc, getrusage.cc,
givens.cc, gl-render.cc, gl2ps-print.cc, graphics.cc, graphics.in.h, gripes.cc,
hash.cc, help.cc, hess.cc, hex2num.cc, input.cc, inv.cc, jit-ir.cc,
jit-typeinfo.cc, jit-util.cc, jit-util.h, kron.cc, load-path.cc, load-save.cc,
lookup.cc, ls-ascii-helper.cc, ls-hdf5.cc, ls-mat-ascii.cc, ls-mat4.cc,
ls-mat5.cc, ls-oct-binary.cc, ls-oct-text.cc, ls-oct-text.h, ls-utils.cc,
ls-utils.h, lsode.cc, lu.cc, luinc.cc, mappers.cc, matrix_type.cc, max.cc,
mex.h, mexproto.h, mgorth.cc, nproc.cc, oct-errno.in.cc, oct-fstrm.cc,
oct-hdf5-types.cc, oct-hdf5.h, oct-hist.cc, oct-iostrm.cc, oct-lvalue.cc,
oct-map.cc, oct-prcstrm.cc, oct-procbuf.cc, oct-stream.cc, oct-strstrm.cc,
octave-link.cc, ordschur.cc, pager.cc, pinv.cc, pr-output.cc, procstream.cc,
profiler.cc, psi.cc, pt-jit.cc, quad.cc, quadcc.cc, qz.cc, rand.cc, rcond.cc,
regexp.cc, schur.cc, sighandlers.cc, sparse-xdiv.cc, sparse-xpow.cc, sparse.cc,
spparms.cc, sqrtm.cc, str2double.cc, strfind.cc, strfns.cc, sub2ind.cc, svd.cc,
sylvester.cc, symtab.cc, syscalls.cc, sysdep.cc, sysdep.h, time.cc, toplev.cc,
tril.cc, tsearch.cc, txt-eng-ft.cc, txt-eng.cc, typecast.cc, urlwrite.cc,
utils.cc, variables.cc, xdiv.cc, xnorm.cc, xpow.cc, zfstream.cc,
__delaunayn__.cc, __eigs__.cc, __fltk_uigetfile__.cc, __glpk__.cc,
__init_fltk__.cc, __init_gnuplot__.cc, __magick_read__.cc, __osmesa_print__.cc,
__voronoi__.cc, amd.cc, audiodevinfo.cc, audioread.cc, ccolamd.cc, chol.cc,
colamd.cc, convhulln.cc, dmperm.cc, fftw.cc, oct-qhull.h, qr.cc, symbfact.cc,
symrcm.cc, oct-conf.in.cc, ov-base-diag.cc, ov-base-int.cc, ov-base-mat.cc,
ov-base-scalar.cc, ov-base-sparse.cc, ov-base.cc, ov-bool-mat.cc,
ov-bool-sparse.cc, ov-bool.cc, ov-builtin.cc, ov-cell.cc, ov-ch-mat.cc,
ov-class.cc, ov-classdef.cc, ov-colon.cc, ov-complex.cc, ov-cs-list.cc,
ov-cx-diag.cc, ov-cx-mat.cc, ov-cx-sparse.cc, ov-dld-fcn.cc, ov-fcn-handle.cc,
ov-fcn-inline.cc, ov-fcn.cc, ov-float.cc, ov-flt-complex.cc, ov-flt-cx-diag.cc,
ov-flt-cx-mat.cc, ov-flt-re-diag.cc, ov-flt-re-mat.cc, ov-int16.cc,
ov-int32.cc, ov-int64.cc, ov-int8.cc, ov-java.cc, ov-lazy-idx.cc,
ov-mex-fcn.cc, ov-null-mat.cc, ov-oncleanup.cc, ov-perm.cc, ov-range.cc,
ov-re-diag.cc, ov-re-mat.cc, ov-re-sparse.cc, ov-scalar.cc, ov-str-mat.cc,
ov-struct.cc, ov-typeinfo.cc, ov-uint16.cc, ov-uint32.cc, ov-uint64.cc,
ov-uint8.cc, ov-usr-fcn.cc, ov.cc, ovl.cc, octave.cc, op-b-b.cc, op-b-bm.cc,
op-b-sbm.cc, op-bm-b.cc, op-bm-bm.cc, op-bm-sbm.cc, op-cdm-cdm.cc, op-cell.cc,
op-chm.cc, op-class.cc, op-cm-cm.cc, op-cm-cs.cc, op-cm-m.cc, op-cm-s.cc,
op-cm-scm.cc, op-cm-sm.cc, op-cs-cm.cc, op-cs-cs.cc, op-cs-m.cc, op-cs-s.cc,
op-cs-scm.cc, op-cs-sm.cc, op-dm-dm.cc, op-dm-scm.cc, op-dm-sm.cc,
op-dm-template.cc, op-dms-template.cc, op-double-conv.cc, op-fcdm-fcdm.cc,
op-fcdm-fdm.cc, op-fcm-fcm.cc, op-fcm-fcs.cc, op-fcm-fm.cc, op-fcm-fs.cc,
op-fcn.cc, op-fcs-fcm.cc, op-fcs-fcs.cc, op-fcs-fm.cc, op-fcs-fs.cc,
op-fdm-fdm.cc, op-float-conv.cc, op-fm-fcm.cc, op-fm-fcs.cc, op-fm-fm.cc,
op-fm-fs.cc, op-fs-fcm.cc, op-fs-fcs.cc, op-fs-fm.cc, op-fs-fs.cc,
op-i16-i16.cc, op-i32-i32.cc, op-i64-i64.cc, op-i8-i8.cc, op-int-concat.cc,
op-int-conv.cc, op-m-cm.cc, op-m-cs.cc, op-m-m.cc, op-m-s.cc, op-m-scm.cc,
op-m-sm.cc, op-pm-pm.cc, op-pm-scm.cc, op-pm-sm.cc, op-pm-template.cc,
op-range.cc, op-s-cm.cc, op-s-cs.cc, op-s-m.cc, op-s-s.cc, op-s-scm.cc,
op-s-sm.cc, op-sbm-b.cc, op-sbm-bm.cc, op-sbm-sbm.cc, op-scm-cm.cc,
op-scm-cs.cc, op-scm-m.cc, op-scm-s.cc, op-scm-scm.cc, op-scm-sm.cc,
op-sm-cm.cc, op-sm-cs.cc, op-sm-m.cc, op-sm-s.cc, op-sm-scm.cc, op-sm-sm.cc,
op-str-m.cc, op-str-s.cc, op-str-str.cc, op-struct.cc, op-ui16-ui16.cc,
op-ui32-ui32.cc, op-ui64-ui64.cc, op-ui8-ui8.cc, pt-arg-list.cc,
pt-array-list.cc, pt-assign.cc, pt-binop.cc, pt-bp.cc, pt-cbinop.cc,
pt-cell.cc, pt-check.cc, pt-classdef.cc, pt-cmd.cc, pt-colon.cc, pt-colon.h,
pt-const.cc, pt-decl.cc, pt-eval.cc, pt-except.cc, pt-exp.cc, pt-fcn-handle.cc,
pt-funcall.cc, pt-id.cc, pt-idx.cc, pt-jump.cc, pt-loop.cc, pt-mat.cc,
pt-misc.cc, pt-pr-code.cc, pt-select.cc, pt-stmt.cc, pt-unop.cc, pt.cc,
token.cc, Array-jit.cc, Array-os.cc, Array-sym.cc, Array-tc.cc, version.cc:
Indent #ifdef blocks in libinterp.
| author | Rik <rik@octave.org> |
|---|---|
| date | Fri, 05 Feb 2016 16:29:08 -0800 |
| parents | 228b65504557 |
| children | 40de9f8f23a6 |
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/* Copyright (C) 1996-2015 John W. Eaton Copyright (C) 2009-2010 VZLU Prague This file is part of Octave. Octave is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. Octave is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with Octave; see the file COPYING. If not, see <http://www.gnu.org/licenses/>. */ #ifdef HAVE_CONFIG_H # include <config.h> #endif #include <iostream> #include <limits> #include "lo-ieee.h" #include "lo-mappers.h" #include "defun.h" #include "errwarn.h" #include "mxarray.h" #include "oct-map.h" #include "ovl.h" #include "oct-hdf5.h" #include "oct-lvalue.h" #include "oct-stream.h" #include "ops.h" #include "ov-base.h" #include "ov-cell.h" #include "ov-ch-mat.h" #include "ov-complex.h" #include "ov-cx-mat.h" #include "ov-range.h" #include "ov-re-mat.h" #include "ov-scalar.h" #include "ov-str-mat.h" #include "ov-fcn-handle.h" #include "parse.h" #include "pr-output.h" #include "utils.h" #include "toplev.h" #include "variables.h" builtin_type_t btyp_mixed_numeric (builtin_type_t x, builtin_type_t y) { builtin_type_t retval = btyp_unknown; if (x == btyp_bool) x = btyp_double; if (y == btyp_bool) y = btyp_double; if (x <= btyp_float_complex && y <= btyp_float_complex) retval = static_cast<builtin_type_t> (x | y); else if (x <= btyp_uint64 && y <= btyp_float) retval = x; else if (x <= btyp_float && y <= btyp_uint64) retval = y; else if ((x >= btyp_int8 && x <= btyp_int64 && y >= btyp_int8 && y <= btyp_int64) || (x >= btyp_uint8 && x <= btyp_uint64 && y >= btyp_uint8 && y <= btyp_uint64)) retval = (x > y) ? x : y; return retval; } std::string btyp_class_name[btyp_num_types] = { "double", "single", "double", "single", "int8", "int16", "int32", "int64", "uint8", "uint16", "uint32", "uint64", "logical", "char", "struct", "cell", "function_handle" }; string_vector get_builtin_classes (void) { static string_vector retval; if (retval.is_empty ()) { int n = btyp_num_types - 2; retval = string_vector (n); int j = 0; for (int i = 0; i < btyp_num_types; i++) { builtin_type_t ityp = static_cast<builtin_type_t> (i); if (ityp != btyp_complex && ityp != btyp_float_complex) retval(j++) = btyp_class_name[i]; } } return retval; } DEFINE_OV_TYPEID_FUNCTIONS_AND_DATA (octave_base_value, "<unknown type>", "unknown"); // TRUE means to perform automatic sparse to real mutation if there // is memory to be saved bool Vsparse_auto_mutate = false; octave_base_value * octave_base_value::empty_clone (void) const { return resize (dim_vector ()).clone (); } octave_value octave_base_value::squeeze (void) const { std::string nm = type_name (); error ("squeeze: invalid operation for %s type", nm.c_str ()); } octave_value octave_base_value::full_value (void) const { err_wrong_type_arg ("full: invalid operation for %s type", type_name ()); } Matrix octave_base_value::size (void) { const dim_vector dv = dims (); Matrix mdv (1, dv.length ()); for (octave_idx_type i = 0; i < dv.length (); i++) mdv(i) = dv(i); return mdv; } octave_idx_type octave_base_value::numel (const octave_value_list& idx) { return dims_to_numel (dims (), idx); } octave_value octave_base_value::subsref (const std::string&, const std::list<octave_value_list>&) { std::string nm = type_name (); error ("can't perform indexing operations for %s type", nm.c_str ()); } octave_value_list octave_base_value::subsref (const std::string&, const std::list<octave_value_list>&, int) { std::string nm = type_name (); error ("can't perform indexing operations for %s type", nm.c_str ()); } octave_value octave_base_value::subsref (const std::string& type, const std::list<octave_value_list>& idx, bool /* auto_add */) { // This way we may get a more meaningful error message. return subsref (type, idx); } octave_value_list octave_base_value::subsref (const std::string& type, const std::list<octave_value_list>& idx, int nargout, const std::list<octave_lvalue> *) { // Fall back to call without passing lvalue list. return subsref (type, idx, nargout); } octave_value octave_base_value::do_index_op (const octave_value_list&, bool) { std::string nm = type_name (); error ("can't perform indexing operations for %s type", nm.c_str ()); } octave_value_list octave_base_value::do_multi_index_op (int, const octave_value_list&) { std::string nm = type_name (); error ("can't perform indexing operations for %s type", nm.c_str ()); } octave_value_list octave_base_value::do_multi_index_op (int nargout, const octave_value_list& idx, const std::list<octave_lvalue> *) { // Fall back. return do_multi_index_op (nargout, idx); } idx_vector octave_base_value::index_vector (bool /* require_integers */) const { std::string nm = "<" + type_name () + ">"; err_invalid_index (nm.c_str ()); } octave_value octave_base_value::subsasgn (const std::string& type, const std::list<octave_value_list>& idx, const octave_value& rhs) { octave_value retval; if (is_defined ()) { if (! is_numeric_type ()) { std::string nm = type_name (); error ("can't perform indexed assignment for %s type", nm.c_str ()); } switch (type[0]) { case '(': { if (type.length () == 1) retval = numeric_assign (type, idx, rhs); else if (is_empty ()) { // Allow conversion of empty matrix to some other // type in cases like // // x = []; x(i).f = rhs octave_value tmp = octave_value::empty_conv (type, rhs); retval = tmp.subsasgn (type, idx, rhs); } else { std::string nm = type_name (); error ("in indexed assignment of %s, last rhs index must be ()", nm.c_str ()); } } break; case '{': case '.': { std::string nm = type_name (); error ("%s cannot be indexed with %c", nm.c_str (), type[0]); } break; default: panic_impossible (); } } else { // Create new object of appropriate type for given index and rhs // types and then call undef_subsasgn for that object. octave_value tmp = octave_value::empty_conv (type, rhs); retval = tmp.undef_subsasgn (type, idx, rhs); } return retval; } octave_value octave_base_value::undef_subsasgn (const std::string& type, const std::list<octave_value_list>& idx, const octave_value& rhs) { // In most cases, undef_subsasgn is handled the sams as subsasgn. One // exception is octave_class objects. return subsasgn (type, idx, rhs); } octave_idx_type octave_base_value::nnz (void) const { err_wrong_type_arg ("octave_base_value::nnz ()", type_name ()); } octave_idx_type octave_base_value::nzmax (void) const { return numel (); } octave_idx_type octave_base_value::nfields (void) const { err_wrong_type_arg ("octave_base_value::nfields ()", type_name ()); } octave_value octave_base_value::reshape (const dim_vector&) const { err_wrong_type_arg ("octave_base_value::reshape ()", type_name ()); } octave_value octave_base_value::permute (const Array<int>&, bool) const { err_wrong_type_arg ("octave_base_value::permute ()", type_name ()); } octave_value octave_base_value::resize (const dim_vector&, bool) const { err_wrong_type_arg ("octave_base_value::resize ()", type_name ()); } MatrixType octave_base_value::matrix_type (void) const { err_wrong_type_arg ("octave_base_value::matrix_type ()", type_name ()); } MatrixType octave_base_value::matrix_type (const MatrixType&) const { err_wrong_type_arg ("octave_base_value::matrix_type ()", type_name ()); } octave_value octave_base_value::all (int) const { return 0.0; } octave_value octave_base_value::any (int) const { return 0.0; } octave_value octave_base_value::convert_to_str (bool pad, bool force, char type) const { octave_value retval = convert_to_str_internal (pad, force, type); if (! force && is_numeric_type ()) warn_implicit_conversion ("Octave:num-to-str", type_name (), retval.type_name ()); return retval; } octave_value octave_base_value::convert_to_str_internal (bool, bool, char) const { err_wrong_type_arg ("octave_base_value::convert_to_str_internal ()", type_name ()); } void octave_base_value::convert_to_row_or_column_vector (void) { err_wrong_type_arg ("octave_base_value::convert_to_row_or_column_vector ()", type_name ()); } void octave_base_value::print (std::ostream&, bool) { err_wrong_type_arg ("octave_base_value::print ()", type_name ()); } void octave_base_value::print_raw (std::ostream&, bool) const { err_wrong_type_arg ("octave_base_value::print_raw ()", type_name ()); } bool octave_base_value::print_name_tag (std::ostream& os, const std::string& name) const { bool retval = false; indent (os); if (print_as_scalar ()) os << name << " = "; else { os << name << " ="; newline (os); if (! Vcompact_format) newline (os); retval = true; } return retval; } void octave_base_value::print_with_name (std::ostream& output_buf, const std::string& name, bool print_padding) { bool pad_after = print_name_tag (output_buf, name); print (output_buf); if (print_padding && pad_after && ! Vcompact_format) newline (output_buf); } void octave_base_value::print_info (std::ostream& os, const std::string& /* prefix */) const { os << "no info for type: " << type_name () << "\n"; } #define INT_CONV_METHOD(T, F) \ T \ octave_base_value::F ## _value (bool require_int, bool frc_str_conv) const \ { \ T retval = 0; \ \ double d = 0.0; \ \ try \ { \ d = double_value (frc_str_conv); \ } \ catch (octave_execution_exception& e) \ { \ err_wrong_type_arg (e, "octave_base_value::" #F "_value ()", type_name ()); \ } \ \ if (require_int && D_NINT (d) != d) \ error_with_cfn ("conversion of %g to " #T " value failed", d); \ else if (d < std::numeric_limits<T>::min ()) \ retval = std::numeric_limits<T>::min (); \ else if (d > std::numeric_limits<T>::max ()) \ retval = std::numeric_limits<T>::max (); \ else \ retval = static_cast<T> (::fix (d)); \ \ return retval; \ } INT_CONV_METHOD (short int, short) INT_CONV_METHOD (unsigned short int, ushort) INT_CONV_METHOD (int, int) INT_CONV_METHOD (unsigned int, uint) INT_CONV_METHOD (long int, long) INT_CONV_METHOD (unsigned long int, ulong) INT_CONV_METHOD (int64_t, int64) INT_CONV_METHOD (uint64_t, uint64) int octave_base_value::nint_value (bool frc_str_conv) const { double d = 0.0; try { d = double_value (frc_str_conv); } catch (octave_execution_exception& e) { err_wrong_type_arg (e, "octave_base_value::nint_value ()", type_name ()); } if (xisnan (d)) error ("conversion of NaN to integer value failed"); return static_cast<int> (::fix (d)); } double octave_base_value::double_value (bool) const { err_wrong_type_arg ("octave_base_value::double_value ()", type_name ()); } float octave_base_value::float_value (bool) const { err_wrong_type_arg ("octave_base_value::float_value ()", type_name ()); } Cell octave_base_value::cell_value () const { err_wrong_type_arg ("octave_base_value::cell_value()", type_name ()); } Matrix octave_base_value::matrix_value (bool) const { err_wrong_type_arg ("octave_base_value::matrix_value()", type_name ()); } FloatMatrix octave_base_value::float_matrix_value (bool) const { err_wrong_type_arg ("octave_base_value::float_matrix_value()", type_name ()); } NDArray octave_base_value::array_value (bool) const { err_wrong_type_arg ("octave_base_value::array_value()", type_name ()); } FloatNDArray octave_base_value::float_array_value (bool) const { err_wrong_type_arg ("octave_base_value::float_array_value()", type_name ()); } Complex octave_base_value::complex_value (bool) const { err_wrong_type_arg ("octave_base_value::complex_value()", type_name ()); } FloatComplex octave_base_value::float_complex_value (bool) const { err_wrong_type_arg ("octave_base_value::float_complex_value()", type_name ()); } ComplexMatrix octave_base_value::complex_matrix_value (bool) const { err_wrong_type_arg ("octave_base_value::complex_matrix_value()", type_name ()); } FloatComplexMatrix octave_base_value::float_complex_matrix_value (bool) const { err_wrong_type_arg ("octave_base_value::float_complex_matrix_value()", type_name ()); } ComplexNDArray octave_base_value::complex_array_value (bool) const { err_wrong_type_arg ("octave_base_value::complex_array_value()", type_name ()); } FloatComplexNDArray octave_base_value::float_complex_array_value (bool) const { err_wrong_type_arg ("octave_base_value::float_complex_array_value()", type_name ()); } bool octave_base_value::bool_value (bool) const { err_wrong_type_arg ("octave_base_value::bool_value()", type_name ()); } boolMatrix octave_base_value::bool_matrix_value (bool) const { err_wrong_type_arg ("octave_base_value::bool_matrix_value()", type_name ()); } boolNDArray octave_base_value::bool_array_value (bool) const { err_wrong_type_arg ("octave_base_value::bool_array_value()", type_name ()); } charMatrix octave_base_value::char_matrix_value (bool force) const { charMatrix retval; octave_value tmp = convert_to_str (false, force); retval = tmp.char_matrix_value (); return retval; } charNDArray octave_base_value::char_array_value (bool) const { err_wrong_type_arg ("octave_base_value::char_array_value()", type_name ()); } SparseMatrix octave_base_value::sparse_matrix_value (bool) const { err_wrong_type_arg ("octave_base_value::sparse_matrix_value()", type_name ()); } SparseComplexMatrix octave_base_value::sparse_complex_matrix_value (bool) const { err_wrong_type_arg ("octave_base_value::sparse_complex_matrix_value()", type_name ()); } SparseBoolMatrix octave_base_value::sparse_bool_matrix_value (bool) const { err_wrong_type_arg ("octave_base_value::sparse_bool_matrix_value()", type_name ()); } DiagMatrix octave_base_value::diag_matrix_value (bool) const { err_wrong_type_arg ("octave_base_value::diag_matrix_value()", type_name ()); } FloatDiagMatrix octave_base_value::float_diag_matrix_value (bool) const { err_wrong_type_arg ("octave_base_value::float_diag_matrix_value()", type_name ()); } ComplexDiagMatrix octave_base_value::complex_diag_matrix_value (bool) const { err_wrong_type_arg ("octave_base_value::complex_diag_matrix_value()", type_name ()); } FloatComplexDiagMatrix octave_base_value::float_complex_diag_matrix_value (bool) const { err_wrong_type_arg ("octave_base_value::float_complex_diag_matrix_value()", type_name ()); } PermMatrix octave_base_value::perm_matrix_value (void) const { err_wrong_type_arg ("octave_base_value::perm_matrix_value()", type_name ()); } octave_int8 octave_base_value::int8_scalar_value (void) const { err_wrong_type_arg ("octave_base_value::int8_scalar_value()", type_name ()); } octave_int16 octave_base_value::int16_scalar_value (void) const { err_wrong_type_arg ("octave_base_value::int16_scalar_value()", type_name ()); } octave_int32 octave_base_value::int32_scalar_value (void) const { err_wrong_type_arg ("octave_base_value::int32_scalar_value()", type_name ()); } octave_int64 octave_base_value::int64_scalar_value (void) const { err_wrong_type_arg ("octave_base_value::int64_scalar_value()", type_name ()); } octave_uint8 octave_base_value::uint8_scalar_value (void) const { err_wrong_type_arg ("octave_base_value::uint8_scalar_value()", type_name ()); } octave_uint16 octave_base_value::uint16_scalar_value (void) const { err_wrong_type_arg ("octave_base_value::uint16_scalar_value()", type_name ()); } octave_uint32 octave_base_value::uint32_scalar_value (void) const { err_wrong_type_arg ("octave_base_value::uint32_scalar_value()", type_name ()); } octave_uint64 octave_base_value::uint64_scalar_value (void) const { err_wrong_type_arg ("octave_base_value::uint64_scalar_value()", type_name ()); } int8NDArray octave_base_value::int8_array_value (void) const { err_wrong_type_arg ("octave_base_value::int8_array_value()", type_name ()); } int16NDArray octave_base_value::int16_array_value (void) const { err_wrong_type_arg ("octave_base_value::int16_array_value()", type_name ()); } int32NDArray octave_base_value::int32_array_value (void) const { err_wrong_type_arg ("octave_base_value::int32_array_value()", type_name ()); } int64NDArray octave_base_value::int64_array_value (void) const { err_wrong_type_arg ("octave_base_value::int64_array_value()", type_name ()); } uint8NDArray octave_base_value::uint8_array_value (void) const { err_wrong_type_arg ("octave_base_value::uint8_array_value()", type_name ()); } uint16NDArray octave_base_value::uint16_array_value (void) const { err_wrong_type_arg ("octave_base_value::uint16_array_value()", type_name ()); } uint32NDArray octave_base_value::uint32_array_value (void) const { err_wrong_type_arg ("octave_base_value::uint32_array_value()", type_name ()); } uint64NDArray octave_base_value::uint64_array_value (void) const { err_wrong_type_arg ("octave_base_value::uint64_array_value()", type_name ()); } string_vector octave_base_value::string_vector_value (bool pad) const { string_vector retval; octave_value tmp = convert_to_str (pad, true); retval = tmp.string_vector_value (); return retval; } std::string octave_base_value::string_value (bool force) const { std::string retval; octave_value tmp = convert_to_str (force); retval = tmp.string_value (); return retval; } std::string octave_base_value::xstring_value (void) const { std::string retval; wrong_type_arg_error (); return retval; } Array<std::string> octave_base_value::cellstr_value (void) const { err_wrong_type_arg ("octave_base_value::cellstr_value()", type_name ()); } Range octave_base_value::range_value (void) const { err_wrong_type_arg ("octave_base_value::range_value()", type_name ()); } octave_map octave_base_value::map_value (void) const { err_wrong_type_arg ("octave_base_value::map_value()", type_name ()); } octave_scalar_map octave_base_value::scalar_map_value (void) const { octave_map tmp = map_value (); if (tmp.numel () != 1) error ("invalid conversion of multi-dimensional struct to scalar struct"); return octave_scalar_map (tmp.checkelem (0)); } string_vector octave_base_value::map_keys (void) const { err_wrong_type_arg ("octave_base_value::map_keys()", type_name ()); } size_t octave_base_value::nparents (void) const { err_wrong_type_arg ("octave_base_value::nparents()", type_name ()); } std::list<std::string> octave_base_value::parent_class_name_list (void) const { err_wrong_type_arg ("octave_base_value::parent_class_name_list()", type_name ()); } string_vector octave_base_value::parent_class_names (void) const { err_wrong_type_arg ("octave_base_value::parent_class_names()", type_name ()); } octave_function * octave_base_value::function_value (bool silent) { octave_function *retval = 0; if (! silent) err_wrong_type_arg ("octave_base_value::function_value()", type_name ()); return retval; } octave_user_function * octave_base_value::user_function_value (bool silent) { octave_user_function *retval = 0; if (! silent) err_wrong_type_arg ("octave_base_value::user_function_value()", type_name ()); return retval; } octave_user_script * octave_base_value::user_script_value (bool silent) { octave_user_script *retval = 0; if (! silent) err_wrong_type_arg ("octave_base_value::user_script_value()", type_name ()); return retval; } octave_user_code * octave_base_value::user_code_value (bool silent) { octave_user_code *retval = 0; if (! silent) err_wrong_type_arg ("octave_base_value::user_code_value()", type_name ()); return retval; } octave_fcn_handle * octave_base_value::fcn_handle_value (bool silent) { octave_fcn_handle *retval = 0; if (! silent) err_wrong_type_arg ("octave_base_value::fcn_handle_value()", type_name ()); return retval; } octave_fcn_inline * octave_base_value::fcn_inline_value (bool silent) { octave_fcn_inline *retval = 0; if (! silent) err_wrong_type_arg ("octave_base_value::fcn_inline_value()", type_name ()); return retval; } octave_value_list octave_base_value::list_value (void) const { err_wrong_type_arg ("octave_base_value::list_value()", type_name ()); } bool octave_base_value::save_ascii (std::ostream&) { err_wrong_type_arg ("octave_base_value::save_ascii()", type_name ()); } bool octave_base_value::load_ascii (std::istream&) { err_wrong_type_arg ("octave_base_value::load_ascii()", type_name ()); } bool octave_base_value::save_binary (std::ostream&, bool&) { err_wrong_type_arg ("octave_base_value::save_binary()", type_name ()); } bool octave_base_value::load_binary (std::istream&, bool, oct_mach_info::float_format) { err_wrong_type_arg ("octave_base_value::load_binary()", type_name ()); } bool octave_base_value::save_hdf5 (octave_hdf5_id, const char *, bool) { err_wrong_type_arg ("octave_base_value::save_binary()", type_name ()); } bool octave_base_value::load_hdf5 (octave_hdf5_id, const char *) { err_wrong_type_arg ("octave_base_value::load_binary()", type_name ()); } int octave_base_value::write (octave_stream&, int, oct_data_conv::data_type, int, oct_mach_info::float_format) const { err_wrong_type_arg ("octave_base_value::write()", type_name ()); } mxArray * octave_base_value::as_mxArray (void) const { return 0; } octave_value octave_base_value::diag (octave_idx_type) const { err_wrong_type_arg ("octave_base_value::diag ()", type_name ()); } octave_value octave_base_value::diag (octave_idx_type, octave_idx_type) const { err_wrong_type_arg ("octave_base_value::diag ()", type_name ()); } octave_value octave_base_value::sort (octave_idx_type, sortmode) const { err_wrong_type_arg ("octave_base_value::sort ()", type_name ()); } octave_value octave_base_value::sort (Array<octave_idx_type> &, octave_idx_type, sortmode) const { err_wrong_type_arg ("octave_base_value::sort ()", type_name ()); } sortmode octave_base_value::is_sorted (sortmode) const { err_wrong_type_arg ("octave_base_value::is_sorted ()", type_name ()); } Array<octave_idx_type> octave_base_value::sort_rows_idx (sortmode) const { err_wrong_type_arg ("octave_base_value::sort_rows_idx ()", type_name ()); } sortmode octave_base_value::is_sorted_rows (sortmode) const { err_wrong_type_arg ("octave_base_value::is_sorted_rows ()", type_name ()); } const char * octave_base_value::get_umap_name (unary_mapper_t umap) { static const char *names[num_unary_mappers] = { "abs", "acos", "acosh", "angle", "arg", "asin", "asinh", "atan", "atanh", "cbrt", "ceil", "conj", "cos", "cosh", "erf", "erfinv", "erfcinv", "erfc", "erfcx", "erfi", "dawson", "exp", "expm1", "isfinite", "fix", "floor", "gamma", "imag", "isinf", "isna", "isnan", "lgamma", "log", "log2", "log10", "log1p", "real", "round", "roundb", "signum", "sin", "sinh", "sqrt", "tan", "tanh", "isalnum", "isalpha", "isascii", "iscntrl", "isdigit", "isgraph", "islower", "isprint", "ispunct", "isspace", "isupper", "isxdigit", "signbit", "toascii", "tolower", "toupper" }; if (umap < 0 || umap >= num_unary_mappers) return "unknown"; else return names[umap]; } void octave_base_value::warn_load (const char *type) const { warning_with_id ("Octave:load-save-unavailable", "%s: loading %s files not available in this version of Octave", t_name.c_str (), type); } void octave_base_value::warn_save (const char *type) const { warning_with_id ("Octave:load-save-unavailable", "%s: saving %s files not available in this version of Octave", t_name.c_str (), type); } void octave_base_value::wrong_type_arg_error (void) const { err_wrong_type_arg (type_name ()); } octave_value octave_base_value::map (unary_mapper_t umap) const { error ("%s: not defined for %s", get_umap_name (umap), type_name ().c_str ()); } void octave_base_value::lock (void) { err_wrong_type_arg ("octave_base_value::lock ()", type_name ()); } void octave_base_value::unlock (void) { err_wrong_type_arg ("octave_base_value::unlock ()", type_name ()); } void octave_base_value::dump (std::ostream& os) const { dim_vector dv = this->dims (); os << "class: " << this->class_name () << " type: " << this->type_name () << " dims: " << dv.str (); } OCTAVE_NORETURN static void err_indexed_assignment (const std::string& tn1, const std::string& tn2) { error ("assignment of '%s' to indexed '%s' not implemented", tn2.c_str (), tn1.c_str ()); } OCTAVE_NORETURN static void err_assign_conversion_failed (const std::string& tn1, const std::string& tn2) { error ("type conversion for assignment of '%s' to indexed '%s' failed", tn2.c_str (), tn1.c_str ()); } OCTAVE_NORETURN static void err_no_conversion (const std::string& on, const std::string& tn1, const std::string& tn2) { error ("operator %s: no conversion for assignment of '%s' to indexed '%s'", on.c_str (), tn2.c_str (), tn1.c_str ()); } octave_value octave_base_value::numeric_assign (const std::string& type, const std::list<octave_value_list>& idx, const octave_value& rhs) { octave_value retval; if (idx.front ().empty ()) error ("missing index in indexed assignment"); int t_lhs = type_id (); int t_rhs = rhs.type_id (); octave_value_typeinfo::assign_op_fcn f = octave_value_typeinfo::lookup_assign_op (octave_value::op_asn_eq, t_lhs, t_rhs); bool done = false; if (f) { f (*this, idx.front (), rhs.get_rep ()); done = true; } if (done) { count++; retval = octave_value (this); } else { int t_result = octave_value_typeinfo::lookup_pref_assign_conv (t_lhs, t_rhs); if (t_result >= 0) { octave_base_value::type_conv_fcn cf = octave_value_typeinfo::lookup_widening_op (t_lhs, t_result); if (! cf) err_indexed_assignment (type_name (), rhs.type_name ()); octave_base_value *tmp = cf (*this); if (! tmp) err_assign_conversion_failed (type_name (), rhs.type_name ()); octave_value val (tmp); retval = val.subsasgn (type, idx, rhs); done = true; } if (! done) { octave_value tmp_rhs; octave_base_value::type_conv_info cf_rhs = rhs.numeric_conversion_function (); octave_base_value::type_conv_info cf_this = numeric_conversion_function (); // Try biased (one-sided) conversions first. if (cf_rhs.type_id () >= 0 && (octave_value_typeinfo::lookup_assign_op (octave_value::op_asn_eq, t_lhs, cf_rhs.type_id ()) || octave_value_typeinfo::lookup_pref_assign_conv (t_lhs, cf_rhs.type_id ()) >= 0)) cf_this = 0; else if (cf_this.type_id () >= 0 && (octave_value_typeinfo::lookup_assign_op (octave_value::op_asn_eq, cf_this.type_id (), t_rhs) || octave_value_typeinfo::lookup_pref_assign_conv (cf_this.type_id (), t_rhs) >= 0)) cf_rhs = 0; if (cf_rhs) { octave_base_value *tmp = cf_rhs (rhs.get_rep ()); if (! tmp) err_assign_conversion_failed (type_name (), rhs.type_name ()); tmp_rhs = octave_value (tmp); } else tmp_rhs = rhs; count++; octave_value tmp_lhs = octave_value (this); if (cf_this) { octave_base_value *tmp = cf_this (*this); if (! tmp) err_assign_conversion_failed (type_name (), rhs.type_name ()); tmp_lhs = octave_value (tmp); } if (! cf_this && ! cf_rhs) err_no_conversion (octave_value::assign_op_as_string (octave_value::op_asn_eq), type_name (), rhs.type_name ()); retval = tmp_lhs.subsasgn (type, idx, tmp_rhs); done = true; } } // The assignment may have converted to a type that is wider than necessary. retval.maybe_mutate (); return retval; } // Current indentation. int octave_base_value::curr_print_indent_level = 0; // TRUE means we are at the beginning of a line. bool octave_base_value::beginning_of_line = true; // Each print() function should call this before printing anything. // // This doesn't need to be fast, but isn't there a better way? void octave_base_value::indent (std::ostream& os) const { assert (curr_print_indent_level >= 0); if (beginning_of_line) { // FIXME: do we need this? // os << prefix; for (int i = 0; i < curr_print_indent_level; i++) os << " "; beginning_of_line = false; } } // All print() functions should use this to print new lines. void octave_base_value::newline (std::ostream& os) const { os << "\n"; beginning_of_line = true; } // For resetting print state. void octave_base_value::reset (void) const { beginning_of_line = true; curr_print_indent_level = 0; } octave_value octave_base_value::fast_elem_extract (octave_idx_type) const { return octave_value (); } bool octave_base_value::fast_elem_insert (octave_idx_type, const octave_value&) { return false; } bool octave_base_value::fast_elem_insert_self (void *, builtin_type_t) const { return false; } CONVDECLX (matrix_conv) { return new octave_matrix (); } CONVDECLX (complex_matrix_conv) { return new octave_complex_matrix (); } CONVDECLX (string_conv) { return new octave_char_matrix_str (); } CONVDECLX (cell_conv) { return new octave_cell (); } static inline octave_value_list sanitize (const octave_value_list& ovl) { octave_value_list retval = ovl; for (octave_idx_type i = 0; i < ovl.length (); i++) { if (retval(i).is_magic_colon ()) retval(i) = ":"; } return retval; } octave_value make_idx_args (const std::string& type, const std::list<octave_value_list>& idx, const std::string& who) { size_t len = type.length (); if (len != idx.size ()) error ("invalid index for %s", who.c_str ()); Cell type_field (1, len); Cell subs_field (1, len); std::list<octave_value_list>::const_iterator p = idx.begin (); for (size_t i = 0; i < len; i++) { char t = type[i]; switch (t) { case '(': type_field(i) = "()"; subs_field(i) = Cell (sanitize (*p++)); break; case '{': type_field(i) = "{}"; subs_field(i) = Cell (sanitize (*p++)); break; case '.': { type_field(i) = "."; octave_value_list vlist = *p++; if (vlist.length () != 1) error ("only single argument permitted for '.' index"); octave_value val = vlist(0); if (! val.is_string ()) error ("string argument required for '.' index"); subs_field(i) = val; } break; default: panic_impossible (); break; } } octave_map m; m.assign ("type", type_field); m.assign ("subs", subs_field); return m; } bool called_from_builtin (void) { octave_function *fcn = octave_call_stack::caller (); // FIXME: we probably need a better check here, or some other // mechanism to avoid overloaded functions when builtin is used. // For example, what if someone overloads the builtin function? // Also, are there other places where using builtin is not properly // avoiding dispatch? return (fcn && fcn->name () == "builtin"); } void install_base_type_conversions (void) { INSTALL_ASSIGNCONV (octave_base_value, octave_scalar, octave_matrix); INSTALL_ASSIGNCONV (octave_base_value, octave_matrix, octave_matrix); INSTALL_ASSIGNCONV (octave_base_value, octave_complex, octave_complex_matrix); INSTALL_ASSIGNCONV (octave_base_value, octave_complex_matrix, octave_complex_matrix); INSTALL_ASSIGNCONV (octave_base_value, octave_range, octave_matrix); INSTALL_ASSIGNCONV (octave_base_value, octave_char_matrix_str, octave_char_matrix_str); INSTALL_ASSIGNCONV (octave_base_value, octave_cell, octave_cell); INSTALL_WIDENOP (octave_base_value, octave_matrix, matrix_conv); INSTALL_WIDENOP (octave_base_value, octave_complex_matrix, complex_matrix_conv); INSTALL_WIDENOP (octave_base_value, octave_char_matrix_str, string_conv); INSTALL_WIDENOP (octave_base_value, octave_cell, cell_conv); } DEFUN (sparse_auto_mutate, args, nargout, "-*- texinfo -*-\n\ @deftypefn {} {@var{val} =} sparse_auto_mutate ()\n\ @deftypefnx {} {@var{old_val} =} sparse_auto_mutate (@var{new_val})\n\ @deftypefnx {} {} sparse_auto_mutate (@var{new_val}, \"local\")\n\ Query or set the internal variable that controls whether Octave will\n\ automatically mutate sparse matrices to full matrices to save memory.\n\ \n\ For example:\n\ \n\ @example\n\ @group\n\ s = speye (3);\n\ sparse_auto_mutate (false);\n\ s(:, 1) = 1;\n\ typeinfo (s)\n\ @result{} sparse matrix\n\ sparse_auto_mutate (true);\n\ s(1, :) = 1;\n\ typeinfo (s)\n\ @result{} matrix\n\ @end group\n\ @end example\n\ \n\ When called from inside a function with the @qcode{\"local\"} option, the\n\ variable is changed locally for the function and any subroutines it calls.\n\ The original variable value is restored when exiting the function.\n\ @end deftypefn") { return SET_INTERNAL_VARIABLE (sparse_auto_mutate); } /* %!test %! s = speye (3); %! sparse_auto_mutate (false); %! s(:, 1) = 1; %! assert (typeinfo (s), "sparse matrix"); %! sparse_auto_mutate (true); %! s(1, :) = 1; %! assert (typeinfo (s), "matrix"); %! sparse_auto_mutate (false); */